SO(2) reacts with O(2) as follows 2SO(2)...

`SO_(2)` reacts with `O_(2)` as follows `2SO_(2) +O_(2)to2SO_(3)`, the rate of disappearance of `SO_(2)` is `2.4xx10^(-4)` mole `"lit"^(-1)"min"^(-1)`. Then

Rate of reaction is `1.2xx10^(-4)"mol lit"^(-1)"min"^(-1)`

Rate of appearance of `SO_(3)` is`2.4xx10^(-4)"mole lit"^(-1)"min"^(-1)`

Rate of disappearance of `O_(2)` is `1.2xx10^(-4)` mole `'lit"^(-1)min^(-1)`

Rate of reaction is twice the rate of disappeanrance of `SO_(3)`

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The correct Answer is:

A, B, C

`2SO_(2)+O_(2)implies2SO_(3),r=(r_(SO_(2)))/2=(rO_(2))/1=(r_(SO_(3)))/2,(2.4xx10^(-4))/2=(r_(O_(2)))/1=(r_(SO_(3)))/2`
`r_(O_(2))=1.2xx10^(-4),r_(SO_(2))=2.4xx10^(-4)`

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